ANALISIS DISTRIBUSI NANOPARTIKEL Fe3O4 TERHADAP PENYERAPAN LOGAM BERAT Pb
DOI:
https://doi.org/10.34151/technoscientia.v12i1.1777Keywords:
Fe3O4, Heavy metal Pb, NanomaterialAbstract
Magnetic nanomaterial Fe3O4 has pabricated using coprecipitation methods for 90 minutes with temperatur 60oC . Pabrication product of this sample were coloured black powder. Characterisation of Fe3O4 used Transmission Electron Microscopy (TEM). Characterization result studied were density using J-image software. Mixing Fe3O4 powder into liquid waste has goal to determine the level of absorption of Fe3O4 magnetic nanomaterials to heavy metals contained in waste. Particle density has a big potential to absorb heavy metals, especially Pb. At the density level of the densest Fe3O4 particles shows the optimal absorption ability of Pb metal absorbed at a concentration of 0,56 grams with an absorption percentage of 99,99%.
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Sartika, D., Puji, A. F., Suharyadi, E., 2014, Studi Penurunan Kadar Logam Fe dan Co pada Limbah Cair dengan Purifikasi Berbasis Adsorben Nanopartikel Magnetik Fe3O4, Jurnal Fisika Indonesia, No. 52, Vol. XVIII.
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Menggunakan Metode Kopresipitasi. Jurnal Tecnoscientia, Vol. 11, No. 1, ISSN: 1979-8415.
Khattak, M. M. U. R, Zahoor, M., Muhammad, B., Khan, F. A., Ullah, R., Salam, N. A., 2017, Removal of Heavy Metals from Drinking Water by Magnetic Carbon Nanostructures
Prepared from Biomass, Jurnal of Nanomaterials.
Dief, A. M. A., Hamdan, S. K., 2016. Functionalization of Magnetic Nano Particles: Synthesis,Characterization and Their Application in Water Purification, American Journal of Nanoscience, DOI: 10.11648/j.ajn.20160203.12
Gautam, P. K., Gautam, R. K., Banerjee, S., Chattopadhyaya, and Pandey, J. D., 2016, Heavy Metals in The Environment: Fate, Transport, Toxicity and Remediation Technologies, Nava Science Publishers, ISBN: 978-1-63484-740-7.
Hassaan, M. A., Nemr, A. E., Madkour, F. F. 2016. Environmental Assessment of Heavy Metal Pollution and Human Health Risk., American Journal of Water Science and Engineering, DOI: 10.11648/j.ajwse.20160203.11.
Giraldo, L., Erto, A., Pirajan, J. C. M. 2012. Magnetite Nanoparticles for Removal of Heavy Metals from Aqueous Solutions: Synthesis and Sharacterization, Adsorption, DOI: 10.1007/s10450-012-9468-1.
Nurjanah, S., 2018, Sintesis dan Karakterisasi Nanopartikel Magnetik Fe3O4 Pasir Besi Glagah Kulon Progo dengan Metode Kopresipitasi, Skripsi, Universitas Negeri Yogyakarta.
Bolto, B. A., 1990, Magnetic Particle Technology for Wastewater Treatment, Waste Management, Vol. 10. pp. 11-21.
Yang T,. Zhu S. H., Zhang D., and Xu S. H., 2008, Synthesis and Properties of Magnetic Fe3O4 Activated carbon Nanocomposite Particles For Dye Removal, Matter lett, Vol. 18, pp. 1675-1679.
Fuertes, A. B and Tartaj, P., 2008, A facile Route for The Preparation of Superparamagnetic Porous Carbon. Chem Mater. Vol. 18. pp. 1675-1679.
Hariani P. L., Faizal M., Ridwan R., Marsi, 2013, Syntesis and Properties of Fe3O4 Nanoparticles by Co-precipitation Method to Removal Procion Dye.
Khajeh, M., dan Khajeh A., 2009, Synthesis of Magnetic Nanoparticles for Biological and Water Application, Nanomedicine: Nanotechnology, Biology,and Medicine.
Sartika, D., 2016, Sifat Magnetik Adsorben Nanopartikel Fe3O4 Terhadap Adsorben Logam Berat (Co dan Fe) dalam Larutan.
Sartika, D., Puji, A. F., Suharyadi, E., 2014, Studi Penurunan Kadar Logam Fe dan Co pada Limbah Cair dengan Purifikasi Berbasis Adsorben Nanopartikel Magnetik Fe3O4, Jurnal Fisika Indonesia, No. 52, Vol. XVIII.
Tartaj, P., Morales M.D.P., Verdaguer S.P., Carreno T.G., Serna C.J., 2003. The Preparation of Magnetic nanoparticles for Applications in Biomedicine, Journal of Physics D: Applied Physics, 36: pp. R182-R197.
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Published
15-07-2019
How to Cite
Sartika, D., Malis, E., & Mangunang, E. S. (2019). ANALISIS DISTRIBUSI NANOPARTIKEL Fe3O4 TERHADAP PENYERAPAN LOGAM BERAT Pb. JURNAL TEKNOLOGI TECHNOSCIENTIA, 12(1), 8–11. https://doi.org/10.34151/technoscientia.v12i1.1777
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